mlir/test/Transforms/parametric-mapping.mlir - llvm-project - Git at Google

 // RUN: mlir-opt -allow-unregistered-dialect -test-mapping-to-processing-elements %s | FileCheck %s

 // CHECK: #[[mul_map:.+]] = affine_map<()[s0, s1] -> (s0 * s1)>
 // CHECK: #[[add_map:.+]] = affine_map<()[s0, s1] -> (s0 + s1)>

 //      CHECK: func @map1d
 // CHECK-SAME: (%[[lb:.*]]: index, %[[ub:.*]]: index, %[[step:.*]]: index)
 func @map1d(%lb: index, %ub: index, %step: index) {
   // CHECK: %[[threads:.*]]:2 = "new_processor_id_and_range"() : () -> (index, index)
   %0:2 = "new_processor_id_and_range"() : () -> (index, index)

   // CHECK: %[[thread_offset:.+]] = affine.apply #[[mul_map]]()[%[[threads]]#0, %[[step]]]
   // CHECK: %[[new_lb:.+]] = affine.apply #[[add_map]]()[%[[thread_offset]], %[[lb]]]
   // CHECK: %[[new_step:.+]] = affine.apply #[[mul_map]]()[%[[threads]]#1, %[[step]]]

   // CHECK: scf.for %{{.*}} = %[[new_lb]] to %[[ub]] step %[[new_step]] {
   scf.for %i = %lb to %ub step %step {}
   return
 }

 //      CHECK: func @map2d
 // CHECK-SAME: (%[[lb:.*]]: index, %[[ub:.*]]: index, %[[step:.*]]: index)
 func @map2d(%lb : index, %ub : index, %step : index) {
   // CHECK: %[[blocks:.*]]:2 = "new_processor_id_and_range"() : () -> (index, index)
   %0:2 = "new_processor_id_and_range"() : () -> (index, index)

   // CHECK: %[[threads:.*]]:2 = "new_processor_id_and_range"() : () -> (index, index)
   %1:2 = "new_processor_id_and_range"() : () -> (index, index)

   // blockIdx.x * blockDim.x
   // CHECK: %[[bidxXbdimx:.+]] = affine.apply #[[mul_map]]()[%[[blocks]]#0, %[[threads]]#1]
   //
   // threadIdx.x + blockIdx.x * blockDim.x
   // CHECK: %[[tidxpbidxXbdimx:.+]] = affine.apply #[[add_map]]()[%[[bidxXbdimx]], %[[threads]]#0]
   //
   // thread_offset = step * (threadIdx.x + blockIdx.x * blockDim.x)
   // CHECK: %[[thread_offset:.+]] = affine.apply #[[mul_map]]()[%[[tidxpbidxXbdimx]], %[[step]]]
   //
   // new_lb = lb + thread_offset
   // CHECK: %[[new_lb:.+]] = affine.apply #[[add_map]]()[%[[thread_offset]], %[[lb]]]
   //
   // stepXgdimx = step * gridDim.x
   // CHECK: %[[stepXgdimx:.+]] = affine.apply #[[mul_map]]()[%[[blocks]]#1, %[[step]]]
   //
   // new_step = step * gridDim.x * blockDim.x
   // CHECK: %[[new_step:.+]] = affine.apply #[[mul_map]]()[%[[threads]]#1, %[[stepXgdimx]]]
   //
   // CHECK: scf.for %{{.*}} = %[[new_lb]] to %[[ub]] step %[[new_step]] {

   scf.for %i = %lb to %ub step %step {}
   return
 }
	// RUN: mlir-opt -allow-unregistered-dialect -test-mapping-to-processing-elements %s \| FileCheck %s

	// CHECK: #[[mul_map:.+]] = affine_map<()[s0, s1] -> (s0 * s1)>
	// CHECK: #[[add_map:.+]] = affine_map<()[s0, s1] -> (s0 + s1)>

	// CHECK: func @map1d
	// CHECK-SAME: (%[[lb:.]]: index, %[[ub:.]]: index, %[[step:.*]]: index)
	func @map1d(%lb: index, %ub: index, %step: index) {
	// CHECK: %[[threads:.*]]:2 = "new_processor_id_and_range"() : () -> (index, index)
	%0:2 = "new_processor_id_and_range"() : () -> (index, index)

	// CHECK: %[[thread_offset:.+]] = affine.apply #[[mul_map]]()[%[[threads]]#0, %[[step]]]
	// CHECK: %[[new_lb:.+]] = affine.apply #[[add_map]]()[%[[thread_offset]], %[[lb]]]
	// CHECK: %[[new_step:.+]] = affine.apply #[[mul_map]]()[%[[threads]]#1, %[[step]]]

	// CHECK: scf.for %{{.*}} = %[[new_lb]] to %[[ub]] step %[[new_step]] {
	scf.for %i = %lb to %ub step %step {}
	return
	}

	// CHECK: func @map2d
	// CHECK-SAME: (%[[lb:.]]: index, %[[ub:.]]: index, %[[step:.*]]: index)
	func @map2d(%lb : index, %ub : index, %step : index) {
	// CHECK: %[[blocks:.*]]:2 = "new_processor_id_and_range"() : () -> (index, index)
	%0:2 = "new_processor_id_and_range"() : () -> (index, index)

	// CHECK: %[[threads:.*]]:2 = "new_processor_id_and_range"() : () -> (index, index)
	%1:2 = "new_processor_id_and_range"() : () -> (index, index)

	// blockIdx.x * blockDim.x
	// CHECK: %[[bidxXbdimx:.+]] = affine.apply #[[mul_map]]()[%[[blocks]]#0, %[[threads]]#1]
	//
	// threadIdx.x + blockIdx.x * blockDim.x
	// CHECK: %[[tidxpbidxXbdimx:.+]] = affine.apply #[[add_map]]()[%[[bidxXbdimx]], %[[threads]]#0]
	//
	// thread_offset = step * (threadIdx.x + blockIdx.x * blockDim.x)
	// CHECK: %[[thread_offset:.+]] = affine.apply #[[mul_map]]()[%[[tidxpbidxXbdimx]], %[[step]]]
	//
	// new_lb = lb + thread_offset
	// CHECK: %[[new_lb:.+]] = affine.apply #[[add_map]]()[%[[thread_offset]], %[[lb]]]
	//
	// stepXgdimx = step * gridDim.x
	// CHECK: %[[stepXgdimx:.+]] = affine.apply #[[mul_map]]()[%[[blocks]]#1, %[[step]]]
	//
	// new_step = step * gridDim.x * blockDim.x
	// CHECK: %[[new_step:.+]] = affine.apply #[[mul_map]]()[%[[threads]]#1, %[[stepXgdimx]]]
	//
	// CHECK: scf.for %{{.*}} = %[[new_lb]] to %[[ub]] step %[[new_step]] {

	scf.for %i = %lb to %ub step %step {}
	return
	}